Lift mechanism for implements



p 3943- I w. R. FRANK 3 LIFT MECHANISM FOR IMRLEMENTS Filed Aug. 2,-194l 4 Sheets-Sheet l I MLUAM a. Fe

uric M104 4 Sept. 14, 1943. w. R. FRANK LIFT MECHANISM FOR IMPLEMENTS 4 Sheets-Sheet 2 Filed Aug. 2, 1941 \Illlll'llilll'llll'll wmmn E. Fawn Sept. 14, 1943. w. R. FRANK 2,329,193

I W w/fimw M WA W/z w WW 2% LIFT MECHANISM FOR IMPLEMENTS Filed Aug. 2, 1941 '4 Sheets-Sheet 3 gwuc/Mcfl LUILUAM B. FBANK.

Sept. 14-, 1943.. w NK 2,329,193

LIFT MECHANISM FOR IMPLEMENTS Filed Aug. 2, 1941 4 Sheets-Sheet 4 wmum h-Fmmc Patented Sept. 14, 1943 T -ECHAli SM L HMPQE EN '5 William Molina-I ll; assig iiornto 'lvlinneapolis-Moline Power gp'plication'l iugust 2,

This. invention relates t improvements 5 i llift' mechanisms for agricultural implements. In implements of the type supportedby wheel borne-crank axles it is customary tolrais and lower the implement by operation ofa powerlift clutch actuated by travel movement of one wheel, such operation serving to swing the crank axles in verticalfplaneswith respect to the implement frame 'to" vertically' 'adju'st the= implement; A well known example of such implements is the tractor gang-plow in which two o'rmore shares are used. In the operationof such implements as at present constructedit is found; however,

that the amount of clearance of the shares above the ground,when lifted to transport positions, varies greatly andin accordance with the depth to which the shares penetrate when in plowing positions; Thuswhenshallow'plowing is being done the lifted shares will have high and adequate clearance but when the shares are lowered to deep plowing positions they willnotbe lifted as far above the ground thus reducing the clearance and sometimes-causing an undesirable accumulation of trash'upon the shares.

I his the primary'objectof this invention toprovide what may be termed aconstant clearance lift f mechanism which will operate toliftthe shares v Im l ment m a y,

Minneapolis, Minn., a cor-porationofpelaware v v 1941', Serial; 1x10105306 V (oi; 917L 43 i g z Fig'it' View similar [parts adjusted to -transport; positions I with the plow shareslifted; above the ground, this View also showingpower liit parts hotjappearing i in Fig. 3

is another View similar to Fig.f3 but showing the play shares lowered still further for 7 Referring now more particularly and hyirefer- ---ence charactersto the drawings 10 and! I represent the beams of "a conventio'nal form oftwo gang tractor plow, saidloeams being connected at forwardends by the'hitch attachment I 2 and at rear ends by a' b race l3 toiorrri a'rigidfimplement frame; v downwardly curved ends of thefbeams Ill and II --inus'1.1'a1fashion.;

- The implement is supported by a land when I5 or tools always 'to the same-height above the ground in'transport position no matter how deep they may run when inplowing or working positions. Another object is .to provide a device or means for this purpose" which is extremely simple, capable of being readily applied to implements having present day powerlift {clutch constructions and which requires'no such precision of fitting or adjustments (as to render it-impractical for. fab-rication'pnder the usual plow sho tolere ances. I f l. '1'- These and other. more'detailed-and specific objects will bedisclosed -in the. course of the following specification, referencebeingl had" to the I accompanying drawingsiin which-'- 1 Fig.1 isa perspectiveview of a two gang tractor plow embodying my invention.

Fig. 2 is anenlarged. perspective view'of the connecting link which: constitutes the operating element of. my invention. .7

-,Fig. 3 is a fragmentary broken away, of the land or lefthand'sideof the plow of Fig.1, showing my inventionlapplied thereto and with the plow shareladjusted to a;

shallow plowingp'osition.

Fig.4 is a fragmentary plan-view. of theland wheel I lcrank axle, i,land lever; power lift crank arm, connectingilink- V and-{adjacent parts in the ,positionsdshowninFig.3 p e side elevation, partially and;furrow wheel l6 which are transversely s aced and are "supportably connected to the frame-by a land wheel'crankaxle l1 and furrow wheel crank axle l8. inwardly turned cranked ends IB Qf-the axles I'I and lB.are journaled on parallel transverse axes in beariri Dlatesfliv se 'cured to the. frame as clearly shown and. it will be apparent that, .by swinging these axles about thecranks' and in ivertical planes, the frame and tools 14' may beraise'd or lowered with respect to utheuwheels; 'Arearwheel 2| is also provided and i'b y ,conventional connection at 22 with the crank axle 11 this'wheel is raised and lowered in aczcordance; withmovements. of; thev crank axles to I maintain longitudinal; equilibrium 'il 'l a.l1fQ O$l tions'ofthe'implement. q p r Usual-practice in such'implements isto provide a power lift clutch mechanism 23 on a shaft 1.4

forming the'gaxle for the ,landfwhe el l5 andthis I clutchoperates tonorrnally lockthe shaft 24 to, 'thelcrankpaxle ll: preventing relative qnovement but may operate to thenlock the shaft to-the land wheel for rotationthrough approximately one-half revolution, again lock the. shaftto the crank axle and then, again lock the shaft to the =whee1 for anotherone ,-half revolution in the sarhe direction whereuponithe shaft is lockedag'ainto the crank :axle, j' completing one ,cycle or operation'; Rotation,of-icoursegis imthe direction: of

travel movement of the wheeL' qbeing f-c'ounterclockwise .as'f viewed from "the land; 0rv left hand side "ofthe/implement. Lockin or the shaft 24 v trolledby-ajtriplever" and n'gaging .eithej oiftwo d perith 'ry otth chit e hto Fig.3 but' s hovling The plow shares are secured to rear trip r i e igs isp i q trip lever frees one notch; the shaft, zfi 'is locked to H the wheel, and it rotates therewith one-half turn until the next notch engages the trip lever,

- this operation being repeated as often as may be desired.

Also in usual manner the inner end of the shaft 2 3 carries a rigidly mounted and'radially disposed crank or lifting arm 29 which of course rotates with the. shaft. Ordinarily then the end of this arm 23 is pivotally connected to a link (not here shown in usual form) which in turn,

at an upper end, is pivoted to'a point such-asrepresented at 30 on a land wheel adjusting lever 3|. Said lever is pivoted at 3il to'the' implement frame and has a conventional latching engage-J ment with a toothed segment or quadrant 33- secured to the frame. With-alink thus connected it is apparent that movement ofthe lifting arm 29 by the power lift clutch will vary the effective distance between the axis of the land wheel and the ,point on the lever 3| and such ,point being cek d t h f a b u d ant 3 i cause the entire implement frame to be, raised and lowered withrespect to thewheel axi'slt'qvertically adjust the position of the shares-l4, Transverse level controlis secured bya furrow wheel adjusting lever 34 which is connected to actuate the furrow wheel crank axle I B Iandsuitable interconnection of conventional formas provided between crankaxlesso that both will move" in unison under control of the power lift action after transverse adjustments are made.

The foregoing constitutes the conventional construction'which my invention aims to improve. It

will be'noted that the upper pivot point Silior the link connecting the lifting arm 29 i subject to adjustment in the vertical plane by movement of the land ,wheel lever 3| over; quadrant 33, as is necessary in order to permit. adjustments by the lever of. the working depth of the shares, |4.v

However such, adjustment-of, the point, 30,, will cause a considerablevariation in the maximum vertical distance which may be achieved between the frame and the land wheel axis, resulting in a two arcuate or curved slots 40 and 4| each of which at one end communicate with notches 42 and 43. The radii upon which the slots 40 and 4| are out are centered in the respective ends of the notches 43 and 42, a rounded end 44 of notch 42 serving as thecenter for slot 4| while a similarly rounded end 45 of notch 43 represents the center about which the arc ofslot, 40'is inscribed.

The notches themselves are arcuate and turn oppositely away from the respective ends of the slots 40 and 4| along a curved line the radius of war'dly of the shank 35. The slots 404| thus converg'emand the outer or upper slot 40 is the which is centered at about the point 46 which, as

shownin Figs. 3 and 5, is spaced slightly fordifference in the extentto whichrthejsharesmay be lifted above the ground. In other words, with a the lever adjustedto a shallow plowing position (Fig. 3) the point 3fl is ilowered.withresiaect to the frame and the lift consequently isgreatest as may be understood in Fig..5. However, when the lever is swung upward to a deeper plowing position, to effectively raise the wheelaxis relative to the frame, the point 30 is raised and the downward movement of crank axle I! to lift the implement' consequently is 1 limited, causing. a very definite reduction in the height'to which theshares-Will be raised above the ground.

In accordance with my invention I provide a "novel formof link connection between lifting "arm 29 and lever 3| which will afford ashifting or floating engage'ment-Withthe', lever such as to permit thecr ank -aiile H to swingto thesame transport position; nomatterwhat thedepth set-- ting of the lever 3| may be, thus stantclearance for the shares.

securing a con- I'therefore replace the usual connecting link with a link device designatedgenerally at A and 'com'prising a shank or elongated end- 35 hav ng an-opening 3.6 for a pivot connectiona 'l gwi ins l ver i. nd-.sfl h-mie s s: h iiadapiai l oe-.th use ef; my i i e en. are eeee ii ed, by

shqrtllei all ip iec inslsiuds h c are b -v such diameter as ,to nicely fit into and' play through t ts. nd nqt hesi ie ss q tude ing if desired, provided with anti fr-iction rollers ti li n .i i H lnope i gtion, star ng for; convenience in explanation from the transport pesitionof Fig. 5,

it-willbe-noted; first; that the partsare so arran d. nd portioned ih tt e ew v stud 32 rests in the end45 of nctchy43- and. the upper stud- 32"lies ,somewhere in the slot-fll The position of thisstud; 3 2 in the slot obv ieusly will 10 1 vary according to ,the setting of the lever 31 but in the. shallow depth setting shown the stud will fall sornewhere near the notchedend -.of thefslot.

locked to the crank axle. one ofitsitwo operative positions and-said ;crank axle is turned downward andio y:sli htlyiforwar thus raising thejf-ra e 'to;its fullest extent. The. clear ancerdistance, between the shares L4 and the actuated, setting thepower lift ro ndis.represen ediatgc.t., t

' Now tolower the. :Dlow; the, trip :lever 25' is clutch, in operation to turnjthe lift arm 2-9;;through approximately one-half of a. complete revolution toward its: other operativerposition ,with respect to the crank axle Has seenin'Fig. 3..; As the lift arm 29. thus, moves forwardlyand. downwardly the entire link A is first rockedion, :the; pivot. stud 32 until the stud 30 reaches the notched endof. the slot. 40 whereupon the rocking movement of the link; shifts to x point 2 substantially about. the

center, 46 thus shifting the head: 33. bodily along the arcuate line 'ofthenot'ches'flZ. and. until the stud.30 reaches the 'end '44 of notch42. .At this time the stud 32 .ihas,.cleared-n'otch 43-sand enters slot 4| asythe entiretlin'k now rocksabout the pivot stud 3jflzuntil the'l'ift 'arm 29icompletes its one-half turn. The positioncf the parts is n then. as appears in '3 and the loweringofthe the; end ofthe lifting arm 29 Theopposite end ofthe' link is widened to provide what may'be I termed a,.head,'designated generallyflategfand .which ishere shown as welded at; 3 9 m the shank .35 butwhich bbvioiis yinay e m integrally therewith if sodesiredj This widened" end "or head as is providedwith framezhasicause'dthe shares I4 ,toiienter the. :ground toarshallowdepth. I

'rAny tendency. of the frameitov'lower further when in working position is resisted rby the positive engagement of thestud= 30with then'otch 42 :and' obviously no rocking-movement-o'f thelink can take place so long as the lift; arm inns-locked by the power lift clutch to tlieflcranln axle I To now return the plow to lifted or position the trip lever 25 is again operated .to' cause the. power lift clutch to, turnthe-lift arm It 'will'further be noted thatin each. operative I would-still'be taking the main force,

l position of the lift lever 29 (transport in; Fig.

or working in Figs. 3 ands) thelink'shank .35 comes to rest in longitudinal alignment-therewith, the only difference. being the jack-knif6d condition assumed when in working position. This, however, is more or.lesscoincidentahthe more important consideration being the relationship between a line through centers 36 and 31 and thepoint M, as will beexplained.

29 another half revolution in the same direction andbaek to thetransport position 10f Fig. 5. The resulting upward and rearward movement of this I arm 29 nowfirst rocks the link about: the pivot stud Shuntil stud-32 reaches the openend of the notch 43 whereupon the entire link, rocks. about the center lt shifting it along, thearc ofthe notches 42-63 until the stud 32 reaches the end 55 of the notch 33 whereupon the link rockson transport this stud 32 moving theslottd'over the stud 3U until transport position of the parts, is. again reached.

Considering now ,theoperation when the shares ,7 are set to run deep, the lever 3! is .at such time .rnoved upwardly and rearwardly over the quadrant 33 tothe position shown in broken lines in Fig. 5 and in full lines in Fig. 6. Obviously, since the center of pivot stud 32 runs as the pivot connection for the upper end of'the link:at.or .neartransport position of the parts andthe stud 33 may play freely through. the slotdfl as the leverfil is adjusted, the transport position of all parts will be absolutely the same at any depth setting. I

. To lower the plow to working position theitrip lever is actuated to cause the power lift clutch to again move the lift arm 29 towardits working position shown in Fig. 6. The resulting forward and downward movement of the lower end of the link now'causes the link to .rock abd'ut the axis of pivot stud 32 and obviously, since therstudfiifi V in this position of the lever rests .near the ex- 1 treme end 43 of the slot til, this stud Bdmust Know move almost the entire length of the :slot Q8;bf0l' it reaches the notch, 52. Thelength of theslot at is, such that the permissible range -ofmovement thus afforded will cause the crank axle to reach the forwardly and even upwardly angled position shown in Fig. 6 at which point the shares willbe lowered to about theirnaximum Obviously the. rocking movement of the link might shift to the. center depth in the ground.

&6 to move the stud Bilupwardly in the notchfl2 ing the afig mulationof trash onth'e'shares. lli'v 3 and the stud 32 out to theendof slot tlif the hand lever 31 were set still furtherforward.

It may be explained that the mainpforce between point 3'! and theplow isalways between is due to the fact that the are of notches $2 and d3 isno't taken about 3'1, but rather, about center Alt, I to allow pivoting of link A about 3ll, Consequently, although stud .32 maybe fitth'fil'ldfOf .notch 63, point, and

it does not become the 'effective pivot ward so as to place studs 32 and 363 :at about the center of notches l3 and 42,, respectively, then stud 32 would still be carrying the same small load as when in position of Fig. 6, "and stud@ 3o which makes thearc l243 'much.too.,.short if lever 3i were moved slightly-for the effective. pivot;-v and upon disengagement :of the triplevel, arm 29 would rotate clockwiseg'thus .momentarily causing the plow tolgo deeper until the lift dog became'operative whereupon counterclockwise rotation of arm 29rwouldytake place .until the trip lever again engaged the same notch 21, -whereupon the .dog.- would v.disengage': the wheel, thus leaving the plow atexactly the same lowingjdep h. i -"zt-t I v I The reason for p rmitting stud 32 to reach the end 45 of notch 43 at maximum depth'is to limit rotation of'lever A about 46 as very little lifting action takes placeduring this phase of action,

thus wasting, soto. speak-,the rotation of arm 29.1

All the rotationipossible 013.29 is neededduring that phase of actionwhen lever A is pivoting about stud 32, duringwhich. time the heaviest load is put upon the lift'mechanismp Another reason whystud is thenatural'and effective pivot may beunderstoodby considering thenatural forces acting on lever A;. It is obvi ous that the most effective-position from which to resist upwardmovementof 3111s from a point as nearlyabove; 31 as possible, not from a side wise angle, suchas, from .32; Stud-3D is most nearly above 31 and, therefore, absorb. most of the force;

Thereturn to a. transport. position is accome 7 plishedmy actuatingthe. trip lever to" turn the .liftarmback to its. starting position (F-ig'."5) simply reversing lthe-rockingmovement of the link, .It will be ,quite-evident, however that the same clearance height C will bezsecured ineither will naturally depth setting of the lever 3I, or:any in ter mediate settin thus. securing a constant clear-. ance atall times, when transporting and prevent- Thehand lever 31- may be: adjusted when the plow is in transport position without raising or lowering the shares, or:it may'be,. adjusted while the plow is in operation to secure immediate depthadjustments of the share. ..The nature? of the cooperating linkage is ,suchthat the-power lift wheel isgeffectively locked,to:the plow in'all working positions; r 1

The slotted} lever end masses a shifting pivot center; forthe upper end" of the-link A as a whole, shifting theppivot from a: point (36) outward ,onthe lever when the 'plow'flis in wo'rk ing position-to apoint at thelpivot of the lever itself when in transport. position; Thus the lever has full controlof, the depth of the'tools in their "working positions but the link hangs some point (32) in transport position which is con'stant 'or fixed with respect to t-he frame thus securing-the desiredconstant;clearancew g, Itv lSguI1deI'StQQdj;th&t .1 suitable modification's may be" made .in the structure. as J disclosedg-fpro- ,vided such modifications come' within the: spirit and scope: of the. appendedlclaimsfl-Having now 1 therefore fully illustrated and described myin- Mention,- .what I {claim to "belnewaand desire to protect ,byLettersPatent .5 l =l.,In anxi'mplemen-t, ajframe", supporting-wheels therefor; iilifting .means between: the supporting Otherwise, as-;would;be1th.ecase jift stud 32 were I wheelsand frame.andlincludlngmeans-fon rotating a crank, a linkpivoted-t atone end to the crank, an adjusting member movable in' anup and downdirectioniab'out a pivot connectionwith the frame, and plvot means attaching the other end of the link to said adjusting member for pivotal movement: about the-said pivot connection of'that: member or about-a point on said-member spacedfrom-said connection.

1 2: In an implement a frame, supporting wheels connectedttorthe frame, lifting means connecting the wheel and frame-and including a-rotatable crank, an. adjusting member pivotally mounted on theframefor. upwardanddownwardmovements with respect thereto, a linkforming a lifting connection between. said crank and adjusting member whereby movement of: either will operate to. adjust. the frame up and down with respect to the wheels, and means for shifting the link connection. with: respect: to the adjusting member in accordance withmovements of said atone end for. up anddown swinging movements withrespect to the frame, a link connected between the crankarm. and lever, and means on the link for-shifting-.its-connection to thelever from the pivoted end thereof to a point spaced radially, along the a lever. from said I pivoted end; in response tomovemenv of the link by rotation of thecrank arm. 1 V

4. In an implement, a frame, a wheel supported axle mounted on-the frame and supporting thesame for up and down movements with respect to thewheel; lifting mechanism including a rotatable. lifting arm, a leverpivoted on the frame for up and down swinging movements, the said lever having. one pivot connection coincident with the pivot aboutwhichit swings and a second pivot connection spaced therefrom, a connected'at one-end tethe-liftingarm, and said link having meansfor selective pivotal engagement witheither ofsaid pivot connections on the lever.

5; In an implement; a frame, a wheel sup portedaxle mounted on the frame and supporting the same for up and down-movements with respect to the wheel, lifting mechanismincludinga lifting arm, alever pivotedon the frame for swinging movements with respect thereto, the

said lever having. one pivot connection coincident with the pivotv about which itswingsand a'secand pivot connection spaced therefrom,'alink connectedat one end: to the lifting arm, and said ,link having means at: its other end for -movably engaging the saidzpivotconnections onthe lever and operative to shift the link with respect toboth of said-'pivotlconnections and-angularly with, respect to. the. lever rin. response a. to movements of the said lifting arm. I a a 6. The combination an. implement, of "a frame, an axlehavinga. supporting wheeland' operating to ,supportthe frame for up anddown movements with'respectto'the'wheel; a liftvmechanism mounted .on the axle-and includin a rotatable. crank, a link, connectedat one end to the crank and adapte'da toi be moved upwardly and downwardly with respect :to the/wheel in response to --rota,tion; Oti said crank, a. handidever adjustable about apivota-l'. connection with .therjrame,

I and means for movably connectingthe-other end supporting the frame for up and down move ments with respect to the wheels, a lift mechanism including a rotatable crank, a link connected at one end to the crank and adapted to be moved-upwardly and downwardly with respect to the wheel in response to rotation ofsaid crank, 'a hand lever adjustable up and down about a pivotal connection with the frame, and means connecting the other end of the link to the lever whereby upward and downward movement ofthe link will cause corresponding adjustment of the frame, said link connecting means including a pair of pins slidable and oscillatably movable in a. pair of slots extending indifferent directions.

8. In an implement, a frame, an axle having a ground wheel andsupportin'g the frame-for up and down-movements with respect to the wheel, lift mechanism including a-lifting arm, a link device connected at a lower endtosaid lifting arm, ahand lever mounted for upand down movements with respect to the'frame about a pivot connection therewith, a pivot member disposedon the lever substantially coaxialwith the pivot connectionv thereof, another pivot .member on the lever at a point spaced from said pivot connection, andmeans at the upper end of the link device for respective pivotal engagement withv the said pivot members andyoperativeto move the upper end connection on said pivot members as the lifting arm moves.

9. In an implement, a frame, an axle having a ground wheel and supportingthe frame for up and down movements with respect to the wheel, lift mechanism including a lifting arm, a

r link device connectedata lower end to said lifting arm, a hand lever mounted-for up and down movements with respect to the frame about a pivot connection therewith, pivot membersdisposedin spaced positions on the lever, andmeans at. the upper end of the link device for engaging saidpivot members and moving the upper end connection of the link device with respect to both pivot members inresponse-to action of the lifting arm.

respect to the frame and the other adjustable. in responseto movement of the lever, and the upper end of. the link having means for swinging engagement with the said pivot members.

I 11. In an implement, a frame, an-axle, a ground wheel on the axle, said axle supporting the frame 'for'upward and downward movements, lift mechanism including a-vertically movable member, a link-connected at a lower end to the said member and movable upwardlyandjdownwardly thereby, a. hand lever pivoted. to the. frame for upward and downward movements with respect thereto,

spaced pivot-inemberson the;lever; one of said m mbsr h s fi h; i andtheotheiadjustable in response to movement or e le eta e u p n w i h ir in'g slotsgtoengage said pivot members and curved ,toprovide' selective pivotal engagement with said members:

j 12, 11; "anf im lement, afrrariieg a media ported crank'axle connected to the frame supporting the same for up and down movements, lifting mechanism having a rotatable crank, a

ki bi'f fleei d t; a lo e i id, i i r k 9 up and'down' movements in response to; rotation,

Spat to-the'f frame ground"irrespective"hf the "adjusted position of 316.? are w en suppcit-ea implement liaving a thereof, aha'ridilever-pivoted for up and down.

movements with respect to the 'frame,'-spaced"link pivot members, oneof said members being fixed with'respect to thef'rame and the other adjus able by movement of the lever, the upper end of the link having a separate curved slot to engage each pivot member, each of said slots being formed on a radius centered adjacent an end of reaches the end of its slot the other member may slide along the other slot to permit rocking movement of the link.

13. In an implement, a frame, a wheel supported crank axle connected to the frame and supporting the same for up and down movements,

lifting mechanism having a rotatable crank, a link connected at a lower end to said crank for up and down movements in response to rotation thereof, a hand lever pivoted for up and the other slot so that as either pivot member nd' a groundworkihg tool; a pair of pivot connectionsmounted on the implement,- means for'adjusting one of said connections to control the operating depth of thetool-in'the ground, and power lift meansoperati'velyassociated with both of "said connections for raising'the toolto a predetermined elevation above the earth irrespect'ive crates adjustedposition of said adjustawe pivot connection, said powerl lift meansbeingflconhectedl with said pivot connections by a m'e'mt'ernavm'; slots Islidably engagingthe respective pivot connections: I

17. In a wheel supported implement having frame and "a groundworking tool, a tooladjusting mechanism comprising a tool control member adjustably mounted on the frame, a pivot connection mounted on the member so as to be movable therewith, a second pivot connection carried by the frame, power lift means for raising the tool above the ground surface, and a I connecting member extendingfrom said power lift means to both of-said pivot connections, said tool control member operatin'gthrough saidconnecting member to. control the working depth of the tool in theground, and said power lift means being operative throughsaid. connecting member to raise the tool to a predetermined position above the ground regardless of the adjusted position of the tool control member.

down movements with respect to the frame, a

and proportioned that the pivot connectionof H the upper end of the link willbe shifted alternately between the fixed and movable pivot studs in response to rotation of the saidcrank.

-14. In an implement, a frame, a wheel sup-- ported crank axle on the frame, lift mechanism including a rotatable crank normally locked in either a generally upwardlyturned position or generally downwardly turned position with respect to the wheel axis, a link connected at a lower end to the crank for upward and down- I ward movements thereby,'a hand lever mounted a i for up and down movements with respect to the frame, means for selectively'and pivotally connecting the upper end of the link to a point fixed on said frame or movable with said lever, and said link being arranged to fall into lengthwise alignment with the crank in either position of the 'latten l5. In'an implement, a frame, a wheel support movable relative to the frame, a ground wheel on said support, a power lift member connected;

with the support for actuating the same to raise and lower the frame with respect to the groundwheel, an adjuster member for the wheel sup-- port to regulate the operating elevation of the frame'with respect to the ground surface, and,

means connecting the power lift member to the adjuster member including a member self-adjusting with respect to the adjuster member under action of the power lift member to raise the frame to apredetermined elevation above the ,18; In a wheel supported implement having a frame and a ground workin'g' tool, 'a'tooladjusting mechanism comprising a; tool control member adjustably mounted on the frame, a pivot connection mounted on the member so as to be movable therewith, a, second pivot; connection carried bythe frame,'power lift means for raising the tool I above the ground surface, and a connecting" member extending from said power lift means to both of said pivot connections, said. tool control member operating through said connecting member to control the working depth of the tool in the ground, and said power lift means being operative through said connecting member to raise the tool to a predetermined position i I above the ground regardless of the, adjusted po sition of; the tool control member ;Jand' said con necting member having separate guide portions in movable guiding contact with the respective pivot connections. I

19. In an implement, a wheel, a frame supported by the wheel, an earth working tool carried by the frame, the frame, being verticallyadjustable'to regulatethe working depth of the tool in the ground and to raise the tool to inactiveposition above the ground, a movable lift connection associated with the wheel, a second movable connection adjustable onthe frame, a

third connection carriedby the frame, and means extending between and connecting all three connections and operated by movement of either.

of the movable connections to adjust the frame and tool with respect to the ground.

20pm an implement, a wheel, a frame supported by'the wheel, an earth working tool carried by the' frame, the frame being vertically adjustable to regulate the working depth of the tool in the ground and to raise the tool to in-, active position above the ground, a movable lift connection associated with the wheel, a second movable connection adjustable on the frame, a

thirdconnection carried by the frame, and means extending" between and connecting all three connections andoperated by movement of either of the movable connections to adjust the frame-and,

tool with" respect to the ground, said connecting meansincluding'a memberwhich is movable irr arcs :about the 'centers of both second and;third mentioned connections.

21.-In an implement having a ground wheel andra tool frame supported therebma power lift member operating concentrically with the wheel for raising and lowering the-frame -and-tool,'a 10 control member on'the frame for regulating the working elevation of the tool, and means connecting said power lift and control members and also connected with the frame, said means being operable by either said :power lift member or 15 said control member to adjust the frame and toolwith respect to the ground surface,

- '22 In an implement having a .ground wheel and 3 113091" framesupported thereby, a power-lift member disposed-axially of the wheel lfor raising and lowering the frame'and tool, acontrrzyl memheron the frame for regulating the working'elevation' of the tool, and means-connectingsaid power lift and control members and also connected with the frame, said means being operable by either said power Jift member vorsaid control member to adjust the irame and tool with; respect to the ground surface-said power lift member being operative to lift the frame and tool to a predetermined 'heightabove the ground 

